#!/bin/sh
# nfsserver
#
# Description: Manages nfs server as OCF resource
# by hxinwei@gmail.com
# License: GNU General Public License v2 (GPLv2) and later


# I don't know for certain whether all services actuall _need_ this,
# I know that at least nfs-server needs it.
# The rgmanager resource agent in rgmanager/src/resources/nfsserver.sh.in
# did the unshare for gssd and idmapd as well, even though it seems unclear why.
# Let's start with just the nfs-server, and add others if/when we have clear
# indication they need it.
#NFSD_RELATED_SYSTEMD_SERVICE_FOR_UNSHARE_UTS_NAMESPACE="nfs-idmapd.service nfs-mountd.service nfs-server.service nfsdcld.service rpc-gssd.service rpc-statd.service rpc-statd-notify.service rpcbind.service"
NFSD_RELATED_SYSTEMD_SERVICE_FOR_UNSHARE_UTS_NAMESPACE="nfs-server.service"
SYSTEMD_ENVIRONMENT_FILE_NFS_SERVER_SCOPE=/run/sysconfig/nfs-server-scope
SYSTEMD_UNSHARE_UTS_DROPIN=51-resource-agents-unshare-uts.conf

if [ -n "$OCF_DEBUG_LIBRARY" ]; then
    . $OCF_DEBUG_LIBRARY
else
    : ${OCF_FUNCTIONS_DIR=${OCF_ROOT}/lib/heartbeat}
. ${OCF_FUNCTIONS_DIR}/ocf-shellfuncs
fi

if is_redhat_based; then
	. ${OCF_FUNCTIONS_DIR}/nfsserver-redhat.sh
fi

DEFAULT_INIT_SCRIPT_LIST="/etc/init.d/nfsserver /etc/init.d/nfs /etc/init.d/nfs-kernel-server"
DEFAULT_INIT_SCRIPT="/etc/init.d/nfsserver"
for script in $DEFAULT_INIT_SCRIPT_LIST
do
	if [ -f $script -a -x $script ]; then
		DEFAULT_INIT_SCRIPT=$script
		break
	fi
done

DEFAULT_NOTIFY_CMD=`which sm-notify`
DEFAULT_NOTIFY_CMD=${DEFAULT_NOTIFY_CMD:-"/sbin/sm-notify"}
DEFAULT_NOTIFY_FOREGROUND="false"
DEFAULT_RPCPIPEFS_DIR="/var/lib/nfs/rpc_pipefs"
EXEC_MODE=0
SELINUX_ENABLED=-1
STATD_PATH="/var/lib/nfs"
STATD_DIR=""

nfsserver_meta_data() {
	cat <<END
<?xml version="1.0"?>
<!DOCTYPE resource-agent SYSTEM "ra-api-1.dtd">
<resource-agent name="nfsserver" version="1.0">
<version>1.0</version>

<longdesc lang="en">
Nfsserver helps one to manage the Linux nfs server as a failover-able resource in Linux-HA.
It depends on Linux specific NFS implementation details, so is considered not portable to other platforms yet.
</longdesc>

<shortdesc lang="en">Manages an NFS server</shortdesc>

<parameters>

<parameter name="nfs_init_script" unique="0" required="0">
<longdesc lang="en">
The default init script shipped with the Linux distro.
The nfsserver resource agent offloads the start/stop/monitor 
work to the init script because the procedure to start/stop/monitor 
nfsserver varies on different Linux distro. In the event that this
option is not set, this agent will attempt to use an init script at 
this location, ${DEFAULT_INIT_SCRIPT}, or detect a systemd unit-file 
to use in the event that no init script is detected.
</longdesc>
<shortdesc lang="en">
Init script for nfsserver
</shortdesc>
<content type="string" default="auto detected" />
</parameter>

<parameter name="nfs_no_notify" unique="0" required="0">
<longdesc lang="en">
Do not send reboot notifications to NFSv3 clients during server startup.
</longdesc>
<shortdesc lang="en">
Disable NFSv3 server reboot notifications
</shortdesc>
<content type="boolean" default="false" />
</parameter>

<parameter name="nfs_notify_foreground" unique="0" required="0">
<longdesc lang="en">
Keeps the sm-notify attached to its controlling terminal and running in the foreground.
</longdesc>
<shortdesc lang="en">
Keeps the notify tool running in the foreground.
</shortdesc>
<content type="boolean" default="$DEFAULT_NOTIFY_FOREGROUND" />
</parameter>

<parameter name="nfs_smnotify_retry_time" unique="0" required="0">
<longdesc lang="en">
Specifies the length of sm-notify retry time, in minutes, to continue retrying notifications to unresponsive hosts.  
If this option is not specified, sm-notify attempts to send notifications for 15 minutes. Specifying a value of 0 
causes sm-notify to continue sending notifications to unresponsive peers until it is manually killed.
</longdesc>
<shortdesc lang="en">
Specifies the length of sm-notify retry time (minutes).
</shortdesc>
<content type="integer" default="" />
</parameter>

<parameter name="nfs_server_scope" unique="0" required="0">
<longdesc lang="en">
RFC8881, 8.4.2.1 State Reclaim:

If the server scope is different, the client should not attempt to
reclaim locks. In this situation, no lock reclaim is possible.
Any attempt to re-obtain the locks with non-reclaim operations is
problematic since there is no guarantee that the existing
filehandles will be recognized by the new server, or that if
recognized, they denote the same objects. It is best to treat the
locks as having been revoked by the reconfiguration event.

For lock reclaim to even be attempted, we have to define and set the same
server scope for NFSD on all cluster nodes in the NFS failover cluster.

This agent won't "guess" a suitable server scope name for you, you need to
explicitly specify this. But without it, NFSv4 lock reclaim after failover
won't work properly.  Suggested value: the failover "service IP".
</longdesc>
<shortdesc lang="en">
RFC8881 NFS server scope for (lock) state reclaim after failover.
</shortdesc>
<content type="string"/>
</parameter>

<parameter name="nfs_ip" unique="0" required="0">
<longdesc lang="en">
Comma separated list of floating IP addresses used to access the nfs service
</longdesc>
<shortdesc lang="en">
IP addresses.
</shortdesc>
<content type="string"/>
</parameter>

<parameter name="nfs_shared_infodir" unique="0" required="0">
<longdesc lang="en">
The nfsserver resource agent will save nfs related information in this specific directory.
And this directory must be able to fail-over before nfsserver itself.
</longdesc>
<shortdesc lang="en">
Directory to store nfs server related information.
</shortdesc>
<content type="string" default="" />
</parameter>

<parameter name="rpcpipefs_dir" unique="0" required="0">
<longdesc lang="en">
The mount point for the sunrpc file system. Default is $DEFAULT_RPCPIPEFS_DIR. 
This script will mount (bind) nfs_shared_infodir on /var/lib/nfs/ (cannot be changed),
and this script will mount the sunrpc file system on $DEFAULT_RPCPIPEFS_DIR (default, can be changed by this parameter).
If you want to move only rpc_pipefs/ (e.g. to keep rpc_pipefs/ local) from default, please set this value.
</longdesc>
<shortdesc lang="en">
The mount point for the sunrpc file system.
</shortdesc>
<content type="string" default="$DEFAULT_RPCPIPEFS_DIR" />
</parameter>

$(
is_redhat_based && nfsserver_redhat_meta_data
)

</parameters>

<actions>
<action name="start"   timeout="40s" />
<action name="stop"    timeout="20s" />
<action name="monitor" depth="0"  timeout="20s" interval="10s" />
<action name="meta-data"  timeout="5s" />
<action name="validate-all"  timeout="30s" />
</actions>
</resource-agent>
END

return $OCF_SUCCESS
}

nfsserver_usage() {
	cat <<END
		usage: $0 {start|stop|monitor|status|validate-all|meta-data}
END
}

if [ $# -ne 1 ]; then
	nfsserver_usage
	exit $OCF_ERR_ARGS
fi

case $__OCF_ACTION in
	meta-data)  nfsserver_meta_data
		exit $OCF_SUCCESS
		;;
	usage|help) nfsserver_usage
		exit $OCF_SUCCESS
		;;
	*)
		;;	
esac

fp="$OCF_RESKEY_nfs_shared_infodir"
: ${OCF_RESKEY_nfs_notify_cmd="$DEFAULT_NOTIFY_CMD"}
: ${OCF_RESKEY_nfs_notify_foreground="$DEFAULT_NOTIFY_FOREGROUND"}
: ${OCF_RESKEY_rpcpipefs_dir="$DEFAULT_RPCPIPEFS_DIR"}
OCF_RESKEY_rpcpipefs_dir=${OCF_RESKEY_rpcpipefs_dir%/}

# Use statd folder if it exists
if [ -d "/var/lib/nfs/statd" ]; then
	STATD_DIR="statd"
	STATD_PATH="/var/lib/nfs/statd"
fi

# SELinux information. We are taking the permissions from
# the current statd dir and applying it to the HA one that is
# being mounted in its place.
which restorecon > /dev/null 2>&1 && selinuxenabled
SELINUX_ENABLED=$?
if [ $SELINUX_ENABLED -eq 0 ]; then
	export SELINUX_LABEL="$(ls -dZ $STATD_PATH | grep -o '\S\+:\S\+:\S\+')"
fi

##
# EXEC_MODE values
# 1  user init script or default init script
# 2  systemd (with nfs-lock.service)
# 3  systemd (with rpc-statd.service)
#
# On error, this function will terminate the process
# with error code $OCF_ERR_INSTALLED
##
set_exec_mode()
{

	##
	# If EXEC_MODE is already set, we don't need to run this function again.
	## 
	if [ $EXEC_MODE -ne 0 ]; then
		return 0;
	fi

	##
	# If the user defined an init script, It must exist for us to continue
	##
	if [ -n "$OCF_RESKEY_nfs_init_script" ]; then
		# check_binary will exit the process if init script does not exist
		check_binary ${OCF_RESKEY_nfs_init_script}
		EXEC_MODE=1
		return 0
	fi

	##
	# Check to see if the default init script exists, if so we'll use that.
	##
	if which $DEFAULT_INIT_SCRIPT > /dev/null 2>&1; then
		OCF_RESKEY_nfs_init_script=$DEFAULT_INIT_SCRIPT
		EXEC_MODE=1
		return 0
	fi

	if which systemctl > /dev/null 2>&1; then
		if systemctl --no-legend list-unit-files 'nfs-*' | grep nfs-server > /dev/null; then

			##
			# Attempt systemd (with nfs-lock.service).
			##
			if systemctl --no-legend list-unit-files 'nfs-*' | grep nfs-lock > /dev/null; then
				EXEC_MODE=2
				# when using systemd, the nfs-lock service file handles nfsv3 locking daemons for us.
				return 0
			fi

			##
			# Attempt systemd (with rpc-statd.service).
			##
			if systemctl --no-legend list-unit-files 'rpc-*' | grep rpc-statd > /dev/null; then
				EXEC_MODE=3
				return 0
			fi
		fi
	fi

	ocf_exit_reason "No init script or systemd unit file detected for nfs server"
	exit $OCF_ERR_INSTALLED
}

##
# wrapper for init script and systemd calls.
##
nfs_exec()
{
	local cmd=$1
	local svc=$2
	set_exec_mode

	case $EXEC_MODE in 
		1) if [ -z "$OCF_RESKEY_nfs_server_scope" ] ; then
			${OCF_RESKEY_nfs_init_script} $cmd
		   else
			unshare -u /bin/sh -c "hostname ${OCF_RESKEY_nfs_server_scope}; exec ${OCF_RESKEY_nfs_init_script} $cmd"
		   fi ;;
		2) if ! echo $svc | grep -q "\."; then
			svc="${svc}.service"
		   fi
		   systemctl -n0 $cmd $svc
		   ;;
		3) if ! echo $svc | grep -q "\."; then
			svc="${svc}.service"
		   fi
		   systemctl -n0 $cmd $svc
		   ;;
	esac
}

v3locking_exec()
{
	local cmd=$1
	set_exec_mode

	if [ $EXEC_MODE -eq 2 ]; then
		nfs_exec $cmd nfs-lock.service
	elif [ $EXEC_MODE -eq 3 ]; then
		nfs_exec $cmd rpc-statd.service
	else 
		case $cmd in
			start) locking_start;;
			stop) locking_stop;;
			status) locking_status;;
		esac
	fi
}

nfsserver_systemd_monitor()
{
	local threads_num
	local rc
	local fn

	ocf_log debug "Status: rpcbind"
	rpcinfo > /dev/null 2>&1
	rc=$?
	if [ "$rc" -ne "0" ]; then
		ocf_exit_reason "rpcbind is not running"
		return $OCF_NOT_RUNNING
	fi

	ocf_log debug "Status: nfs-mountd"
	ps axww | grep -q "[r]pc.mountd"
	rc=$?
	if [ "$rc" -ne "0" ]; then
		ocf_exit_reason "nfs-mountd is not running"
		return $OCF_NOT_RUNNING
	fi

	ocf_log debug "Status: nfs-idmapd"
	fn=`mktemp`
	nfs_exec status nfs-idmapd > $fn 2>&1
	rc=$?
	ocf_log debug "$(cat $fn)"
	rm -f $fn
	if [ "$rc" -ne "0" ]; then
		ocf_exit_reason "nfs-idmapd is not running"
		return $OCF_NOT_RUNNING
	fi

	ocf_log debug "Status: rpc-statd"
	rpcinfo -t localhost 100024 > /dev/null 2>&1
	rc=$?
	if [ "$rc" -ne "0" ]; then
		ocf_exit_reason "rpc-statd is not running"
		return $OCF_NOT_RUNNING
	fi

	nfs_exec is-active nfs-server
	rc=$?

	# Now systemctl is-active can't detect the failure of kernel process like nfsd.
	# So, if the return value of systemctl is-active is 0, check the threads number
	# to make sure the process is running really.
	# /proc/fs/nfsd/threads has the numbers of the nfsd threads.
	if [ $rc -eq 0 ]; then
		threads_num=`cat /proc/fs/nfsd/threads 2>/dev/null`
		if [ $? -eq 0 ]; then
			if [ $threads_num -gt 0 ]; then
				return $OCF_SUCCESS
			else
				return 3
			fi
		else
			return $OCF_ERR_GENERIC
		fi
	fi

	return $rc
}

nfsserver_monitor ()
{
	local fn

	set_exec_mode
	fn=`mktemp`
	case $EXEC_MODE in
               1) nfs_exec status nfs-server > $fn 2>&1;;
            [23]) nfsserver_systemd_monitor > $fn 2>&1;;
	esac
	rc=$?
	ocf_log debug "$(cat $fn)"
	rm -f $fn

	#Adapte LSB status code to OCF return code
	if [ $rc -eq 0 ]; then
		# don't report success if nfs servers are up
		# without locking daemons.
		v3locking_exec "status"
		rc=$?
		if [ $rc -ne 0 ]; then
			ocf_exit_reason "NFS server is up, but the locking daemons are down"
			rc=$OCF_ERR_GENERIC
		fi
		return $rc
	elif [ $rc -eq 3 ] || [ $rc -eq $OCF_NOT_RUNNING ]; then
		return $OCF_NOT_RUNNING
	else
		return $OCF_ERR_GENERIC
	fi
}

prepare_directory ()
{
	if [ -z "$fp" ]; then
		return
	fi

	[ -d "$OCF_RESKEY_rpcpipefs_dir" ] || mkdir -p $OCF_RESKEY_rpcpipefs_dir
	[ -d "$fp/v4recovery" ] || mkdir -p $fp/v4recovery

	[ -d "$fp/$STATD_DIR" ] || mkdir -p "$fp/$STATD_DIR"
	[ -d "$fp/$STATD_DIR/sm" ] || mkdir -p "$fp/$STATD_DIR/sm"
	[ -d "$fp/$STATD_DIR/sm.ha" ] || mkdir -p "$fp/$STATD_DIR/sm.ha"
	[ -d "$fp/$STATD_DIR/sm.bak" ] || mkdir -p "$fp/$STATD_DIR/sm.bak"
	[ -n "`id -u rpcuser 2>/dev/null`" -a "`id -g rpcuser 2>/dev/null`" ] &&
		chown -R rpcuser.rpcuser "$fp/$STATD_DIR"

	[ -f "$fp/etab" ] || touch "$fp/etab"
	[ -f "$fp/xtab" ] || touch "$fp/xtab"
	[ -f "$fp/rmtab" ] || touch "$fp/rmtab"

	dd if=/dev/urandom of=$fp/$STATD_DIR/state bs=1 count=4 >/dev/null 2>&1
	[ -n "`id -u rpcuser 2>/dev/null`" -a "`id -g rpcuser 2>/dev/null`" ] && chown rpcuser.rpcuser "$fp/$STATD_DIR/state"
	[ $SELINUX_ENABLED -eq 0 ] && chcon -R "$SELINUX_LABEL" "$fp"
}

is_bound ()
{
	if mount | grep -q "on $1 type"; then
		return 0
	fi

	return 1
}

bind_tree ()
{
	if [ -z "$fp" ]; then
		return
	fi

	[ -d "$fp" ] || mkdir -p $fp

	if is_bound /var/lib/nfs; then
		ocf_log debug "$fp is already bound to /var/lib/nfs"
		return 0
	fi

	case $EXEC_MODE in
	  [23]) if nfs_exec status var-lib-nfs-rpc_pipefs.mount > /dev/null 2>&1; then
			ocf_log debug "/var/lib/nfs/rpc_pipefs already mounted. Unmounting in preparation to bind mount nfs dir"
			systemctl stop var-lib-nfs-rpc_pipefs.mount
		fi
		;;
	esac

	mount --bind $fp /var/lib/nfs
	[ $SELINUX_ENABLED -eq 0 ] && restorecon /var/lib/nfs
}

unbind_tree ()
{
	local i=1
	while `mount | grep -q " on $OCF_RESKEY_rpcpipefs_dir "` && [ "$i" -le 10 ]; do
		ocf_log info "Stop: umount ($i/10 attempts)"
		umount -t rpc_pipefs $OCF_RESKEY_rpcpipefs_dir
		sleep 1
		i=$((i + 1))
	done

	if mount | grep -q " on $OCF_RESKEY_rpcpipefs_dir "; then
		ocf_log err "Failed to unmount $OCF_RESKEY_rpcpipefs_dir"
		return $OCF_ERR_GENERIC
	fi

	if is_bound /var/lib/nfs; then
		if ! umount /var/lib/nfs; then
			ocf_log err "Failed to unmount /var/lib/nfs"
			return $OCF_ERR_GENERIC
		fi
	fi

	return $OCF_SUCCESS
}

binary_status()
{
	local binary=$1
	local pid

	pid=$(pgrep ${binary})
	case $? in
		0)
			echo "$pid"
			return $OCF_SUCCESS;;
		1)
			return $OCF_NOT_RUNNING;;
		*)
			return $OCF_ERR_GENERIC;;
	esac
}

locking_status()
{
	binary_status "rpc.statd" > /dev/null 2>&1
}

locking_start()
{
	local ret=$OCF_SUCCESS

	ocf_log info "Starting rpc.statd."

	rpc.statd $STATDARG

	ret=$?
	if [ $ret -ne 0 ]; then
		ocf_log err "Failed to start rpc.statd"
		return $ret
	fi
	[ -d /var/lock/subsys ] && touch /var/lock/subsys/nfslock

	return $ret
}

terminate()
{
	local pids
	local i=0

	while : ; do
		pids=$(binary_status $1)
		[ -z "$pids" ] && return 0
	 	kill $pids
		sleep 1
		i=$((i + 1))
		[ $i -gt 3 ] && return 1
	done
}


killkill()
{
	local pids
	local i=0

	while : ; do
		pids=$(binary_status $1)
		[ -z "$pids" ] && return 0
	 	kill -9 $pids
		sleep 1
		i=$((i + 1))
		[ $i -gt 3 ] && return 1
	done
}

stop_process()
{
	local process=$1

	ocf_log info "Stopping $process"
	if terminate $process; then
		ocf_log debug "$process is stopped"
	else
		if killkill $process; then
			ocf_log debug "$process is stopped"
		else
			ocf_log debug "Failed to stop $process"
			return 1
		fi
	fi
	return 0
}

locking_stop()
{
	ret=0

	# sm-notify can prevent umount of /var/lib/nfs/statd if
	# it is still trying to notify unresponsive clients.
	stop_process sm-notify
	if [ $? -ne 0 ]; then
		ret=$OCF_ERR_GENERIC
	fi

	stop_process rpc.statd
	if [ $? -ne 0 ]; then
		ret=$OCF_ERR_GENERIC
	fi

	return $ret
}

notify_locks()
{
	if ocf_is_true "$OCF_RESKEY_nfs_no_notify"; then
		# we've been asked not to notify clients
		return;
	fi

	# run in foreground, if requested
	if ocf_is_true "$OCF_RESKEY_nfs_notify_foreground"; then
		opts="-d"
	fi

	if [ -n "$OCF_RESKEY_nfs_smnotify_retry_time" ]; then
		opts="$opts -m $OCF_RESKEY_nfs_smnotify_retry_time"
	fi

	if [ -n "$OCF_RESKEY_statd_outgoing_port" ]; then
		opts="$opts -p $OCF_RESKEY_statd_outgoing_port"
	fi

	# forces re-notificaiton regardless if notifies have already gone out
	opts="$opts -f"

	ocf_log info "executing sm-notify"
	if [ -n "$OCF_RESKEY_nfs_ip" ]; then
		for ip in `echo ${OCF_RESKEY_nfs_ip} | sed 's/,/ /g'`; do
			cp -rpfn $STATD_PATH/sm.ha/* $STATD_PATH/  > /dev/null 2>&1
			sm-notify $opts -v $ip
		done
	else
		sm-notify $opts
	fi
}

# Problem: https://github.com/ClusterLabs/resource-agents/issues/1644
# RFC8881, 8.4.2.1 State Reclaim:
#
# | If the server scope is different, the client should not attempt to
# | reclaim locks. In this situation, no lock reclaim is possible.
# | Any attempt to re-obtain the locks with non-reclaim operations is
# | problematic since there is no guarantee that the existing
# | filehandles will be recognized by the new server, or that if
# | recognized, they denote the same objects. It is best to treat the
# | locks as having been revoked by the reconfiguration event.
#
# That's why for lock reclaim to even be attempted, we have to define and set
# the same server scope for NFSD on all cluster nodes in the NFS failover
# cluster. And in linux, that is done by setting the uts nodename for the
# command that starts the nfsd kernel threads.
#
inject_unshare_uts_name_into_systemd_units ()
{
	local END_TAG="# END OF DROP-IN FOR NFS SERVER SCOPE"
	local services
	services=$(systemctl list-unit-files --no-legend $NFSD_RELATED_SYSTEMD_SERVICE_FOR_UNSHARE_UTS_NAMESPACE | cut -d ' ' -f1)

	local svc dir dropin edited_exec_start do_reload=false
	local old_umask=$(umask)
	umask 0022
	for svc in $services ; do
		dir=/run/systemd/system/$svc.d
		dropin=$dir/$SYSTEMD_UNSHARE_UTS_DROPIN
		grep -sqF "$END_TAG" "$dropin" && continue

		test -d "$dir" || mkdir -p "$dir"
		test -e "$dropin" && rm -f "$dropin"

		edited_exec_start=$(systemctl cat $svc | sed -ne "s#^ExecStart=\\([-+:!@]*\\)\\(.*\\)#ExecStart=\\1/usr/bin/unshare --uts /bin/sh -c 'hostname \${NFS_SERVER_SCOPE}; exec \"\$@\"' -- \\2#p")
		cat > "$dropin" <<___
[Service]
EnvironmentFile=$SYSTEMD_ENVIRONMENT_FILE_NFS_SERVER_SCOPE
# reset list of exec start, then re-populate with unshared uts namespace
ExecStart=
$edited_exec_start
$END_TAG
___
		do_reload=true
		ocf_log debug "injected unshare --uts into $dropin"
	done

	mkdir -p "${SYSTEMD_ENVIRONMENT_FILE_NFS_SERVER_SCOPE%/*}"
	echo "NFS_SERVER_SCOPE=$OCF_RESKEY_nfs_server_scope" > "$SYSTEMD_ENVIRONMENT_FILE_NFS_SERVER_SCOPE"
	umask $old_umask

	$do_reload && systemctl daemon-reload
}

remove_unshare_uts_dropins ()
{
	local services
	services=$(systemctl list-unit-files --no-legend $NFSD_RELATED_SYSTEMD_SERVICE_FOR_UNSHARE_UTS_NAMESPACE | cut -d ' ' -f1)

	local svc dir dropin do_reload=false
	for svc in $services ; do
		dir=/run/systemd/system/$svc.d
		dropin=$dir/$SYSTEMD_UNSHARE_UTS_DROPIN
		test -e "$dropin" || continue
		rm -f "$dropin"
		do_reload=true
		ocf_log debug "removed unshare --uts from $svc"
	done
	rm -f "${SYSTEMD_ENVIRONMENT_FILE_NFS_SERVER_SCOPE}"
	$do_reload && systemctl daemon-reload
}

nfsserver_start ()
{
	local rc;
	local fn

	if nfsserver_monitor; then
		ocf_log debug "NFS server is already started"
		return $OCF_SUCCESS
	fi

	is_redhat_based && set_env_args
	bind_tree
	prepare_directory

	# Debian (and other systems) may provide "init scripts",
	# which will only redirect back to systemd.
	# If we just unshare --uts the init script invocation,
	# the uts namespace is useless in that case.
	# If systemd is running, mangle the nfs-server.service unit,
	# independent of the "EXEC_MODE" we detected.
	if $systemd_is_running ; then
		if [ -z "$OCF_RESKEY_nfs_server_scope" ] ; then
			remove_unshare_uts_dropins
		else
			inject_unshare_uts_name_into_systemd_units
		fi
	fi

	if ! `mount | grep -q " on $OCF_RESKEY_rpcpipefs_dir "`; then
		mount -t rpc_pipefs sunrpc $OCF_RESKEY_rpcpipefs_dir
	fi

	# remove the sm-notify pid so sm-notify will be allowed to run again without requiring a reboot.
	rm -f /var/run/sm-notify.pid
	#
	# Synchronize these before starting statd
	#
	cp -rpfn $STATD_PATH/sm.ha/* $STATD_PATH/ > /dev/null 2>&1
	rm -rf $STATD_PATH/sm.ha/* > /dev/null 2>&1
	cp -rpf $STATD_PATH/sm $STATD_PATH/sm.bak /var/lib/nfs/state $STATD_PATH/sm.ha > /dev/null 2>&1

	ocf_log info "Starting NFS server ..."

	# mounts /proc/fs/nfsd for us
	lsmod | grep -q nfsd
	if [ $? -ne 0 ]; then
		modprobe nfsd
	fi

	# systemd
	case $EXEC_MODE in
            [23]) nfs_exec start rpcbind
		  local i=1
		  while : ; do
			ocf_log info "Start: rpcbind i: $i"
			rpcinfo > /dev/null 2>&1
			rc=$?
			if [ "$rc" -eq "0" ]; then
				break;
			fi
			sleep 1
			i=$((i + 1))
		  done
		  ;;
	esac

	# check to see if we need to start rpc.statd
	v3locking_exec "status"
	if [ $? -ne $OCF_SUCCESS ]; then
		v3locking_exec "start"
		rc=$?
		if [ $rc -ne 0 ]; then
			ocf_exit_reason "Failed to start NFS server locking daemons"
			return $rc
		fi
	else
		ocf_log info "rpc.statd already up"
	fi

	# systemd
	case $EXEC_MODE in
            [23]) nfs_exec start nfs-mountd
		  local i=1
		  while : ; do
			ocf_log info "Start: nfs-mountd i: $i"
			ps axww | grep -q "[r]pc.mountd"
			rc=$?
			if [ "$rc" -eq "0" ]; then
				break;
			fi
			sleep 1
			i=$((i + 1))
		  done

		  nfs_exec start nfs-idmapd
		  local i=1
		  while : ; do
			ocf_log info "Start: nfs-idmapd i: $i"
			fn=`mktemp`
			nfs_exec status nfs-idmapd > $fn 2>&1
			rc=$?
			ocf_log debug "$(cat $fn)"
			rm -f $fn
			if [ "$rc" -eq "0" ]; then
				break;
			fi
			sleep 1
			i=$((i + 1))
		  done

		  nfs_exec start rpc-statd
		  local i=1
		  while : ; do
			ocf_log info "Start: rpc-statd i: $i"
			rpcinfo -t localhost 100024 > /dev/null 2>&1
			rc=$?
			if [ "$rc" -eq "0" ]; then
				break;
			fi
			sleep 1
			i=$((i + 1))
		  done
	esac


	fn=`mktemp`
	nfs_exec start nfs-server > $fn 2>&1
	rc=$?
	ocf_log debug "$(cat $fn)"
	rm -f $fn

	if [ $rc -ne 0 ]; then
		ocf_exit_reason "Failed to start NFS server"
		return $rc
	fi

	tfn="/proc/fs/nfsd/threads"
	if [ ! -f "$tfn" ] || [ "$(cat $tfn)" -le "0" ]; then
		ocf_exit_reason "Failed to start NFS server: /proc/fs/nfsd/threads"
		return $OCF_ERR_GENERIC
	fi

	notify_locks

	ocf_log info "NFS server started"
	return $OCF_SUCCESS
}

nfsserver_stop ()
{
	local fn

	ocf_log info "Stopping NFS server ..."

	# backup the current sm state information to the ha folder before stopping.
	# the ha folder will be synced after startup, restoring the statd client state
	rm -rf $STATD_PATH/sm.ha/* > /dev/null 2>&1
	cp -rpf $STATD_PATH/sm $STATD_PATH/sm.bak /var/lib/nfs/state $STATD_PATH/sm.ha > /dev/null 2>&1

	fn=`mktemp`
	nfs_exec stop nfs-server > $fn 2>&1
	rc=$?
	ocf_log debug "$(cat $fn)"
	rm -f $fn

	if [ $rc -ne 0 ]; then
		ocf_exit_reason "Failed to stop NFS server"
		return $rc
	fi

	# systemd
	case $EXEC_MODE in
            [23]) ocf_log info "Stop: threads"
		  tfn="/proc/fs/nfsd/threads"
		  while [ -f "$tfn" ] && [ "$(cat $tfn)" -gt "0" ]; do
			ocf_log err "NFS server failed to stop: /proc/fs/nfsd/threads"
			sleep 1
		  done

		  nfs_exec stop rpc-statd > /dev/null 2>&1
		  ocf_log info "Stop: rpc-statd"
		  rpcinfo -t localhost 100024 > /dev/null 2>&1
		  rc=$?
		  if [ "$rc" -eq "0" ]; then
			ocf_exit_reason "Failed to stop rpc-statd"
			return $OCF_ERR_GENERIC
		  fi

		  nfs_exec stop nfs-idmapd > /dev/null 2>&1
		  ocf_log info "Stop: nfs-idmapd"
		  fn=`mktemp`
		  nfs_exec status nfs-idmapd > $fn 2>&1
		  rc=$?
		  ocf_log debug "$(cat $fn)"
		  rm -f $fn
		  if [ "$rc" -eq "0" ]; then
			ocf_exit_reason "Failed to stop nfs-idmapd"
			return $OCF_ERR_GENERIC
		  fi

		  nfs_exec stop nfs-mountd > /dev/null 2>&1
		  ocf_log info "Stop: nfs-mountd"
		  ps axww | grep -q "[r]pc.mountd"
		  rc=$?
		  if [ "$rc" -eq "0" ]; then
			ocf_exit_reason "Failed to stop nfs-mountd"
			return $OCF_ERR_GENERIC
		  fi

		  if systemctl --no-legend list-unit-files "nfsdcld*" | grep -q nfsdcld; then
		  	nfs_exec stop nfsdcld > /dev/null 2>&1
		  	ocf_log info "Stop: nfsdcld"
		  	fn=`mktemp`
		  	nfs_exec status nfsdcld > $fn 2>&1
		  	rc=$?
		  	ocf_log debug "$(cat $fn)"
		  	rm -f $fn
		  	if [ "$rc" -eq "0" ]; then
		  		ocf_exit_reason "Failed to stop nfsdcld"
		  		return $OCF_ERR_GENERIC
		  	fi
		  fi
	esac


	v3locking_exec "stop"
	if [ $? -ne 0 ]; then
		ocf_exit_reason "Failed to stop NFS locking daemons"
		rc=$OCF_ERR_GENERIC
	fi

	# systemd
	case $EXEC_MODE in
            [23]) nfs_exec stop rpc-gssd > /dev/null 2>&1
		  ocf_log info "Stop: rpc-gssd"
	esac

	unbind_tree
	rc=$?
	if [ "$rc" -ne $OCF_SUCCESS ]; then
		ocf_exit_reason "Failed to unmount a bind mount"
	else
		ocf_log info "NFS server stopped"
	fi

	if $systemd_is_running; then
		remove_unshare_uts_dropins
	fi

	return $rc
}

nfsserver_validate ()
{
	##
	# set_exec_mode will exit if nfs server is not installed
	##
	set_exec_mode
	check_binary ${OCF_RESKEY_nfs_notify_cmd}


	if [ -n "$OCF_RESKEY_CRM_meta_clone" ] && [ -n "$OCF_RESKEY_nfs_shared_infodir" ]; then
		ocf_exit_reason "This RA does not support clone mode when a shared info directory is in use."
		exit $OCF_ERR_CONFIGURED
	fi

	if [ -n "$OCF_RESKEY_nfs_smnotify_retry_time" ]; then
		if ! ocf_is_decimal "$OCF_RESKEY_nfs_smnotify_retry_time"; then
			ocf_exit_reason "Invalid nfs_smnotify_retry_time [$OCF_RESKEY_nfs_smnotify_retry_time]"
			exit $OCF_ERR_CONFIGURED
		fi
	fi

	case ${OCF_RESKEY_nfs_notify_cmd##*/} in
	sm-notify|rpc.statd) ;;
	*)
		ocf_exit_reason "Invalid nfs_notify_cmd [$OCF_RESKEY_nfs_notify_cmd]"
		exit $OCF_ERR_CONFIGURED
		;;
	esac

	return $OCF_SUCCESS
}

nfsserver_validate
systemd_is_running && systemd_is_running=true || systemd_is_running=false

case $__OCF_ACTION in
	start)      nfsserver_start
		;;
	stop)       nfsserver_stop
		;;
	monitor)    nfsserver_monitor
		;;
	validate-all)   exit $OCF_SUCCESS
		;;
	*)      nfsserver_usage
	exit $OCF_ERR_UNIMPLEMENTED
	;;
esac

